Skip to Main Content
Skip Nav Destination

Magmatic crystallization, isobaric cooling, and decompression of the garnet-bearing assemblages of the Jijal sequence (Kohistan terrane, western Himalayas)

Geology (1999) 27 (2): 139–142.
This article has been cited by the following articles in journals that are participating in CrossRef Cited-by Linking.
Petrogenesis of the ~1.94 Ga Meta‐gabbronorites in Liangcheng: Implications for Tectonic Evolution of the Khondalite Belt, North China Craton
Acta Geologica Sinica - English Edition (2023) 97 (2): 418.
To sink, or not to sink: The thermal and density structure of the modern northern Andean arc constrained by xenolith petrology
Geology (2023) 51 (6): 586.
Exhumation of an Archean Granulite Terrane by Paleoproterozoic Orogenesis: Evidence from the North China Craton
Journal of Petrology (2023) 64 (6)
Growth of continental crust in intra-oceanic and continental-margin arc systems: Analogs for Archean systems
Science China Earth Sciences (2022) 65 (9): 1615.
Phase equilibria and microstructural constraints on the high‐T building of the Kohistan island arc: The Jijal garnet granulites, northern Pakistan
Journal of Metamorphic Geology (2022) 40 (2): 145.
Can Post-Subduction Porphyry Cu Magmas Form by Partial Melting of Typical Lower Crustal Amphibole-Rich Cumulates? Petrographic and Experimental Constraints from Samples of the Kohistan and Gangdese Arc Roots
Journal of Petrology (2022) 63 (11)
Late Cretaceous Metamorphism and Anatexis of the Gangdese Magmatic Arc, South Tibet: Implications for Thickening and Differentiation of Juvenile Crust
Journal of Petrology (2022) 63 (3)
Arclogites in the Subarc Lower Crust: Effects of Crystallization, Partial Melting, and Retained Melt on the Foundering Ability of Residual Roots
Journal of Petrology (2021) 62 (12)
Evolution of continental arc at root caused by igneous garnet and amphibole fractionation: Evidence from Jurassic intermediate–felsic intrusive rocks in southern Qiangtang, Tibet
Lithos (2021) 382-383: 105935.
Coeval shoshonitic and calc-alkaline mantle-derived magmatism in an ancient continental arc root
Contributions to Mineralogy and Petrology (2021) 176 (7)
Petrogenesis of Paleoproterozoic Liangcheng garnet granitoids in the Khondalite Belt, North China Craton
Acta Petrologica Sinica (2021) 37 (2): 375.
Discovery of the Early Jurassic high-temperature pre-Sanbagawa metamorphism recorded in titanite
Lithos (2021) 398-399: 106349.
Rapid mantle convection drove massive crustal thickening in the late Archean
Geochimica et Cosmochimica Acta (2020) 278: 6.
Mineralogy and geochemistry of peridotites and chromitites in the Jijal Complex ophiolite along the Main Mantle Thrust (MMT or Indus Suture Zone) North Pakistan
Lithos (2020) 366-367: 105566.
The mantle source of island arc magmatism during early subduction: Evidence from Hf isotopes in rutile from the Jijal Complex (Kohistan arc, Pakistan)
Lithos (2018) 308-309: 262.
Intra-oceanic arc growth driven by magmatic and tectonic processes recorded in the Neoproterozoic Bougmane arc complex (Anti-Atlas, Morocco)
Precambrian Research (2018) 304: 39.
High-temperature S-type granitoids (charnockites) in the Jining complex, North China Craton: Restite entrainment and hybridization with mafic magma
Lithos (2018) 320-321: 435.
Garnet in the Neoproterozoic Oddanchatram Anorthosite in the Southern Granulite Terrain, India: A Petrological Puzzle
The Journal of Geology (2017) 125 (4): 459.
Subduction of fore-arc crust beneath an intra-oceanic arc: The high-P Cuaba mafic gneisess and amphibolites of the Rio San Juan Complex, Dominican Republic
Lithos (2016) 262: 298.
Silicate‐oxide mineral chemistry of mafic–ultramafic rocks as an indicator of the roots of an island arc: The Chilas Complex, Kohistan (Pakistan)
Island Arc (2016) 25 (1): 4.
Metamorphic P–T–water conditions of the Yushugou granulites from the southeastern Tianshan orogen: Implications for Paleozoic accretionary orogeny
Gondwana Research (2016) 29 (1): 264.
Orthopyroxene–omphacite- and garnet–omphacite-bearing magmatic assemblages, Breaksea Orthogneiss, New Zealand: Oxidation state controlled by high-P oxide fractionation
Lithos (2015) 216-217: 1.
Depleted subcontinental lithospheric mantle and its tholeiitic melt metasomatism beneath NE termination of the Eger Rift (Europe): the case study of the Steinberg (Upper Lusatia, SE Germany) xenoliths
Mineralogy and Petrology (2015) 109 (6): 761.
Role of Arc Processes in the Formation of Continental Crust
Annual Review of Earth and Planetary Sciences (2015) 43 (1): 363.
Magma Transfer and Evolution in Channels within the Arc Crust: the Pyroxenitic Feeder Pipes of Sapat (Kohistan, Pakistan)
Journal of Petrology (2015) 56 (7): 1309.
The contribution of amphibole from deep arc crust to the silicate Earth's Nb budget
Lithos (2014) 208-209: 16.
Arc crustal differentiation mechanisms
Earth and Planetary Science Letters (2014) 396: 267.
TTG-type plutonic rocks formed in a modern arc batholith by hydrous fractionation in the lower arc crust
Contributions to Mineralogy and Petrology (2013) 166 (4): 1099.
Building of the Deep Gangdese Arc, South Tibet: Paleocene Plutonism and Granulite-Facies Metamorphism
Journal of Petrology (2013) 54 (12): 2547.
Mineralogy, conditions of crystallization and melt generation of epidote-bearing porphyries from the Middle Urals, Russian federation
Mineralogy and Petrology (2013) 107 (1): 125.
Seismic reflection imaging of ultradeep roots beneath the eastern Aleutian island arc
Geology (2013) 41 (2): 203.
The composition of the foundered complement to the continental crust and a re-evaluation of fluxes in arcs
Earth and Planetary Science Letters (2013) 371-372: 177.
Foundering of lower island-arc crust as an explanation for the origin of the continental Moho
Nature (2013) 504 (7478): 131.
A case for hornblende dominated fractionation of arc magmas: the Chelan Complex (Washington Cascades)
Contributions to Mineralogy and Petrology (2012) 163 (4): 567.
Lower crustal H2O controls on the formation of adakitic melts
Geology (2012) 40 (6): 487.
The formation and bulk composition of modern juvenile continental crust: The Kohistan arc
Chemical Geology (2012) 298-299: 79.
A Cretaceous forearc ophiolite in the Shyok suture zone, Ladakh, NW India: Implications for the tectonic evolution of the Northwest Himalaya
Lithos (2012) 155: 81.
Multiple garnet growth in garnet–kyanite–staurolite gneiss, Pangong metamorphic complex, Ladakh Himalaya: New constraints on tectonic setting
Lithos (2011) 127 (3-4): 552.
Host rock characteristics and source of chromium and beryllium for emerald mineralization in the ophiolitic rocks of the Indus Suture Zone in Swat, NW Pakistan
Ore Geology Reviews (2011) 39 (1-2): 1.
Construction of the granitoid crust of an island arc. Part II: a quantitative petrogenetic model
Contributions to Mineralogy and Petrology (2010) 160 (3): 359.
Igneous garnet and amphibole fractionation in the roots of island arcs: experimental constraints on andesitic liquids
Contributions to Mineralogy and Petrology (2009) 157 (4): 541.
Geochemical Architecture of the Lower- to Middle-crustal Section of a Paleo-island Arc (Kohistan Complex, Jijal–Kamila Area, Northern Pakistan): Implications for the Evolution of an Oceanic Subduction Zone
Journal of Petrology (2009) 50 (3): 531.
Dehydration, melting and related garnet growth in the deep root of the Amalaoulaou Neoproterozoic magmatic arc (Gourma, NE Mali)
Geological Magazine (2009) 146 (2): 173.
Construction of the granitoid crust of an island arc part I: geochronological and geochemical constraints from the plutonic Kohistan (NW Pakistan)
Contributions to Mineralogy and Petrology (2009) 158 (6): 739.
Magma and fluid percolation in arc to forearc mantle: Evidence from Sapat (Kohistan, Northern Pakistan)
Lithos (2009) 107 (1-2): 17.
Metamorphic patterns in orogenic systems and the geological record
Geological Society, London, Special Publications (2009) 318 (1): 37.
Reconstruction of the Talkeetna intraoceanic arc of Alaska through thermobarometry
Journal of Geophysical Research: Solid Earth (2008) 113 (B3)
Geochemistry and magmatic history of eclogites and ultramafic rocks from the Chinese continental scientific drill hole: Subduction and ultrahigh-pressure metamorphism of lower crustal cumulates
Chemical Geology (2008) 247 (1-2): 133.
Large P–T gap between Ballantrae blueschist/garnet pyroxenite and surrounding ophiolite, southern Scotland, UK: Diapiric exhumation of a Caledonian serpentinite mélange
Lithos (2008) 104 (1-4): 337.
Multistage evolution of the Jijal ultramafic–mafic complex (Kohistan, N Pakistan): Implications for building the roots of island arcs
Earth and Planetary Science Letters (2007) 261 (1-2): 179.
Close Modal

or Create an Account

Close Modal
Close Modal